14.5 Thin Film Interference

Cards (34)

The condition for constructive interference in thin films is 2nt \cos \theta = (m + \frac{1}{2}) \lambda</latex>. 
True
What does the variable $m$ represent in thin film interference formulas? 
Order of interference
The thickness of the film is a key factor influencing thin film interference. 
True
What is the condition for constructive interference in thin films?
$2nt \cos \theta =$ $(m + \frac{1}{2}) \lambda$
Interference patterns in thin films form due to the difference in path lengths between light rays.
The variable $n$ in the interference formulas represents the index of refraction.
To solve for the unknown thickness of a film, you must plug in the known values into the appropriate formula.
The condition for constructive interference is $2nt \cos \theta =$ $(m + \frac{1}{2}) \lambda$
A thin soap bubble with thickness $500 \, \text{nm}$ and refractive index $1.33$ satisfies the constructive interference condition when illuminated by light with wavelength $600 \, \text{nm}$
A thin coating on glasses with thickness $100 \, \text{nm}$ and $n =$ $1.38$ is designed to eliminate reflections at $\lambda =$ $550 \, \text{nm}$ using destructive interference conditions.destructive
To find the thickness of a film that produces constructive interference for $\lambda =$ $550 \, \text{nm}$ , $n =$ $1.40$ , and $\theta =$ $0$ with $m =$ $0$ , the thickness is approximately $98.2 \, \text{nm}$
What is the primary cause of thin film interference?
Reflection of light
A thin soap bubble with thickness 500 \, \text{nm}</latex> and refractive index $1.33$ satisfies the condition for constructive interference
Match the type of interference with its condition:
Constructive ↔️ $2nt \cos \theta =$ $(m + \frac{1}{2}) \lambda$
Destructive ↔️ $2nt \cos \theta =$ $m \lambda$
Film thickness is a key factor influencing thin film interference.
True
The destructive interference condition in thin films is $2nt \cos \theta =$ $m \lambda$ . 
True
Match the type of interference with its condition:
Constructive ↔️ $2nt \cos \theta =$ $(m + \frac{1}{2}) \lambda$
Destructive ↔️ $2nt \cos \theta =$ $m \lambda$
What does the variable $t$ stand for in thin film interference formulas? 
Film thickness
How do interference patterns in thin films form?
Light reflection and path differences
What is the condition for destructive interference in thin films?
$2nt \cos \theta =$ $m \lambda$
Match the variables in the interference conditions with their meanings:
n ↔️ Index of refraction
t ↔️ Thickness of the film
\lambda ↔️ Wavelength of light
\theta ↔️ Angle of incidence
Steps to apply the formulas for thin film interference
1️⃣ Identify key variables
2️⃣ Select the appropriate condition
3️⃣ Plug in known values and solve
4️⃣ Compare results
Key factors influencing thin film interference include film thickness, index of refraction, wavelength, and angle of incidence
The condition for destructive interference in thin films is $2nt \cos \theta =$ $m \lambda$ . 
True
What results from the reflection of light off the top and bottom surfaces of a thin film?
Interference patterns
What is the primary cause of thin film interference?
Light reflecting off surfaces
The index of refraction is a key factor in thin film interference.
What does the integer $m$ represent in the interference formulas? 
Order of interference
What is the key factor determining interference in thin films?
Phase difference
Identifying the correct variables is the first step in applying thin film interference formulas. 
True
Why do interference patterns form in thin films?
Difference in path lengths
In the interference conditions, $m$ represents the order of interference. 
True
A thin coating on glasses designed to eliminate reflections uses destructive interference. 
True
What is the formula for constructive interference when $\theta =$ $0$ ? 
$2nt =$ $(m + \frac{1}{2}) \lambda$